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metallic materials for stress, hardness, impact and c. Uicker Jr., J.J., Pennock, G.R., and Shigley, J.E.,
creep; fundamental of mechanical working for 2003, Theory of Machines and Mechanisms, 3rd
metallic materials. ed., Oxford University Press, New York.
REFERENCES
a. George, E.D., 2013, Mechanical Metallurgys,
3th Ed. in SI Units, Tata McGraw-Hill. BMCG 4323 PROTOTYPE DEVELOPMENT
b. V. Raghavan, 2006, Physical Metallurgy TECHNOLOGY
Principles And Practice 2nd Ed.. Prentice Hall. LEARNING OUTCOMES
c. Smith, W.F., 2010, Principles of Materials At the end of this course, the students should be able
Science and Engineerings, 5th Ed., McGraw Hill. to:
LO1 Explain the fundamental issues in concurrent
d. Hertzberg, R.W., 1996, Deformation and product and process development in terms of
Fraxture Mechanics of Engineering Materials, concurrent engineering tools and
4th Ed., Willey. technologies such as rapid prototyping,
reverse engineering, computer aided design,
BMCG 4313 MECHANISM DESIGN and high speed machining.
LEARNING OUTCOMES LO2 Discuss the main design issues issues with
At the end of this course, students should be able to: relation to rapid prototyping, reverse
LO1 Describe the concept and the process of engineering and high speed machining.
designing a mechanism system. LO3 Analyze and recognize the appropriate time
LO2 Analyze the motion characteristics of the compression technologies based on its
machine analytically, graphically or application, engineering requirements and
computationally. lead-time.
LO3 Synthesize mechanisms according to motion SYNOPSIS
requirement. This course introduces essential tools and techniques
SYNOPSIS in concurrent product and process development. It
This course is to introduce the principles of designing explains and discusses the functions and roles of time
mechanisms, aided by the use of computer compression technologies such as rapid prototyping,
applications. Students will investigate the kinematics CAD, and reverse engineering within product
and dynamics of machineries. Topics include cam development. Comparison between additive and
and cam follower design, gear kinematic analysis, subtractive layer manufacturing is included. An
and linkage synthesis. overview of several RP, RE, and CAD systems current
REFERENCES application and future trends are also discussed. The
a. Myszka, Dave, 2012, Machines & Mechanisms: application of solid modeling and surface modeling,
Applied Kinematic Analysis, 4th ed., Prentice together with STL file generation in component
Hall, Upper Saddle River, New Jersey. design is analyzed. Reverse engineering systems,
b. Norton, Robert, 2012, Design of Machinery, 5th rapid tooling and rapid manufacturing techniques
ed., McGraw-Hill, New York. are compared and discussed.
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